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Quantum Information & Intelligent Energy Harvesting Lab

A group of people in SUSTech Physics. We are developing theoretical physics ideas, often together with experiments. Read More

Our Publications

[34] Liu F, Zhang Y, Dahlsten O, et al. On intelligent energy harvesting. Eprint Arxiv, 2018, 1806.10989.

[33] Wan K H, Liu F, Dahlsten O, et al. Learning Simon's quantum algorithm. Eprint Arxiv, 2018, 1806.10448.

[32] Halpern N, Garner A, Dahlsten O, et al. Maximum one-shot dissipated work from Rényi divergences. Physical Review E, 2018, 97(5).

[31] Akil A, Dahlsten O, Modesto L.Entanglement swapping in black holes: restoring predictability. Eprint Arxiv, 2018, 1805.09573.

[30] Akil A, Dahlsten O, Modesto L. A Firepoint at the Black Hole Singularity. Eprint Arxiv, 2018, 1805.04368.

[29] Lin Y, Dahlsten O. Tunnelling necessitates negative Wigner function. Eprint Arxiv, 2017, 1607.01764.

[28] Wan K, Dahlsten O, Kristjánsson H, et al. Quantum generalisation of feedforward neural networks. npj Quantum Information, 2017, doi: 10.1038/s41534-017-0032-4.

[27] Browne C, Farrow T, Dahlsten O, et al. Organic molecule fluorescence as an experimental test-bed for quantum jumps in thermodynamics. Proceedings of the Royal Society A - Mathematical Physical & Engineering Sciences, 2017, 473(2204).

[26] Dahlsten O, Choi M, Braun D, et al. Entropic quality for worst-case work at any protocol speed. New Journal of Physics, 2017, 19(043013).

[25] Vidrighin M, Dahlsten O, Barbieri M, et al. Photonic Maxwell's Demon. Physical Review Letters, 2016, 116(5):050401.

[24] Garner A, Müller M, Dahlsten O. The quantum bit from relativity of simultaneity on an interferometer. Eprint Arxiv, 2016, 1412.7112.

[23] Halpern N, Garner A, Dahlsten O, et al. Introducing one-shot work into fluctuation relations. New Journal of Physics, 2015, 17(095003).

[22] Dahlsten O, Lupo C, Mancini S, et al. Entanglement Typicality. Journal of Physics A: Mathematical & Theoretical, 2014, 47(36):628-640.

[21] Browne C, Garner A, Dahlsten O, et al.Guaranteed energy-efficient bit reset in finite time. Physical Review Letters, 2014, 113(10):100603.

[20] Dahlsten O, Garner A, Vedral V.The uncertainty principle enables non-classical dynamics in an interferometer. Nature Communications, 2013, (5):4592.

[19] Dahlsten O. Non-Equilibrium Statistical Mechanics inspired by modern information theory. Entropy, 2013, 15(12):5346-5361.

[18] Plesch M, Dahlsten O, Goold J, et al. Comment on "quantum Szilard engine". Physical Review Letters, 2013, 111(18):188901.

[17] Dahlsten O, Garner A, Thompson J, et al. Particle exchange in post-quantum theories. Eprint ArXiv, 2013, 1307.2529.

[16] Garner A, Dahlsten O, Nakata Y, et al. A framework for phase and interference in generalized probabilistic theories. New Journal of Physics, 2013, 15(14):3925-3938.

[15] Egloff D, Dahlsten O, Renner R, et al. A measure of majorisation emerging from single-shot statistical mechanics. New Journal of Physics, 2012, 17(7).

[14] Müller M, Oppenheim J, Dahlsten O. The black hole information problem beyond quantum theory. Journal of High Energy Physics, 2012, 2012(9):1-32.

[13] Plesch M, Dahlsten O, Goold J, et al. Measurement and Particle Statistics in the Szilard Engine. Eprint Arxiv, 2012, 4:6995.

[12] Dahlsten O, Lercher D, Renner R. Tsirelson's bound from a Generalised Data Processing Inequality. New Journal of Physics, 2012, 14(6).

[11] Müller M, Dahlsten O, Vedral V. Unifying typical entanglement and coin tossing: on randomization in probabilistic theories. Communications in Mathematical Physics, 2012, 316(2):441-487.

[10] Dahlsten O, Renner R, Rieper E, et al. Inadequacy of von Neumann entropy for characterising extractable work. New Journal of Physics, 2011, 13(5):053015.

[9] Del Rio L, Dahlsten O, Vedral V, et al. The thermodynamic meaning of negative entropy. Nature, 2011, 474(7349):61.

[8] Gross D, Mueller M, Dahlsten O, et al. All reversible dynamics in maximally nonlocal theories are trivial. Physical Review Letters, 2010, 104(8):080402.

[7] Plato A, Dahlsten O, Plenio M. Random circuits by measurements on weighted graph states. Physical Review A, 2008, 78(4):144.

[6] Barnum H, Dahlsten O, Leifer M, et al. Nonclassicality without entanglement enables bit commitment. Information Theory Workshop, 2008. ITW '08. IEEE. IEEE, 2008:386-390.

[5] Dahlsten O, Oliveira R, Plenio M. Emergence of typical entanglement in two-party random processes. Journal of Physics A General Physics, 2007, 40(28):8081-8108.

[4] Serafini A, Dahlsten O, Gross D, et al. Canonical and micro-canonical typical entanglement of continuous variable systems. Journal of Physics A General Physics, 2007, 40(31):9551-9576.

[3] Dahlsten O, Plenio M, et al. Entanglement probability distribution of bi-partite randomised stabilizer states. Quantum Information & Computation, 2006, 6(6):527-538.

[2] Oliveira R, Dahlsten O, Plenio M. Tunnelling necessitates negative Wigner functionReview Letters, 2007, 98(13):130502.

[1] Serafini A, Dahlsten O, Plenio M. Teleportation fidelities of squeezed states from thermodynamical state space measures. Physical Review Letters, 2006, 98(17).

Publications to date in related areas of

Quantum Information Science

Quantum Foundations

Information Thermodynamics

Quantum Machine Learning

For more details see our publications on the arXiv and Google Scholar